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// Copyright (c) 2009 Satoshi Nakamoto
// Distributed under the MIT/X11 software license, see the accompanying
// file license.txt or http://www.opensource.org/licenses/mit-license.php.


#if defined(_MSC_VER) || defined(__BORLANDC__)
typedef __int64  int64;
typedef unsigned __int64  uint64;
#else
typedef long long  int64;
typedef unsigned long long  uint64;
#endif
#if defined(_MSC_VER) && _MSC_VER < 1300
#define for  if (false) ; else for
#endif
#ifndef _MSC_VER
#define __forceinline  inline
#endif

#define foreach             BOOST_FOREACH
#define loop                for (;;)
#define BEGIN(a)            ((char*)&(a))
#define END(a)              ((char*)&((&(a))[1]))
#define UBEGIN(a)           ((unsigned char*)&(a))
#define UEND(a)             ((unsigned char*)&((&(a))[1]))
#define ARRAYLEN(array)     (sizeof(array)/sizeof((array)[0]))
#define printf              OutputDebugStringF

#ifdef snprintf
#undef snprintf
#endif
#define snprintf my_snprintf

#ifndef PRI64d
#if defined(_MSC_VER) || defined(__BORLANDC__) || defined(__MSVCRT__)
#define PRI64d  "I64d"
#define PRI64u  "I64u"
#define PRI64x  "I64x"
#else
#define PRI64d  "lld"
#define PRI64u  "llu"
#define PRI64x  "llx"
#endif
#endif

// This is needed because the foreach macro can't get over the comma in pair<t1, t2>
#define PAIRTYPE(t1, t2)    pair<t1, t2>

// Used to bypass the rule against non-const reference to temporary
// where it makes sense with wrappers such as CFlatData or CTxDB
template<typename T>
inline T& REF(const T& val)
{
    return (T&)val;
}

#ifdef __WXMSW__
#define MSG_NOSIGNAL        0
#define MSG_DONTWAIT        0
#ifndef UINT64_MAX
#define UINT64_MAX          _UI64_MAX
#define INT64_MAX           _I64_MAX
#define INT64_MIN           _I64_MIN
#endif
#else
#define WSAGetLastError()   errno
#define WSAEWOULDBLOCK      EWOULDBLOCK
#define WSAEMSGSIZE         EMSGSIZE
#define WSAEINTR            EINTR
#define WSAEINPROGRESS      EINPROGRESS
#define WSAEADDRINUSE       EADDRINUSE
#define WSAENOTSOCK         EBADF
#define INVALID_SOCKET      (SOCKET)(~0)
#define SOCKET_ERROR        -1
typedef u_int SOCKET;
#define _vsnprintf(a,b,c,d) vsnprintf(a,b,c,d)
#define strlwr(psz)         to_lower(psz)
#define _strlwr(psz)        to_lower(psz)
#define _mkdir(psz)         filesystem::create_directory(psz)
#define MAX_PATH            1024
#define Sleep(n)            wxMilliSleep(n)
#define Beep(n1,n2)         (0)
#endif

inline int myclosesocket(SOCKET& hSocket)
{
    if (hSocket == INVALID_SOCKET)
        return WSAENOTSOCK;
#ifdef __WXMSW__
    int ret = closesocket(hSocket);
#else
    int ret = close(hSocket);
#endif
    hSocket = INVALID_SOCKET;
    return ret;
}
#define closesocket(s)      myclosesocket(s)










extern map<string, string> mapArgs;
extern map<string, vector<string> > mapMultiArgs;
extern bool fDebug;
extern bool fPrintToDebugger;
extern bool fPrintToConsole;
extern char pszSetDataDir[MAX_PATH];

void RandAddSeed();
void RandAddSeedPerfmon();
int my_snprintf(char* buffer, size_t limit, const char* format, ...);
string strprintf(const char* format, ...);
bool error(const char* format, ...);
void PrintException(std::exception* pex, const char* pszThread);
void LogException(std::exception* pex, const char* pszThread);
void ParseString(const string& str, char c, vector<string>& v);
string FormatMoney(int64 n, bool fPlus=false);
bool ParseMoney(const char* pszIn, int64& nRet);
vector<unsigned char> ParseHex(const char* psz);
vector<unsigned char> ParseHex(const std::string& str);
void ParseParameters(int argc, char* argv[]);
int GetFilesize(FILE* file);
void GetDataDir(char* pszDirRet);
string GetDataDir();
uint64 GetRand(uint64 nMax);
int64 GetTime();
int64 GetAdjustedTime();
void AddTimeData(unsigned int ip, int64 nTime);













// Wrapper to automatically initialize critical sections
class CCriticalSection
{
#ifdef __WXMSW__
protected:
    CRITICAL_SECTION cs;
public:
    explicit CCriticalSection() { InitializeCriticalSection(&cs); }
    ~CCriticalSection() { DeleteCriticalSection(&cs); }
    void Enter() { EnterCriticalSection(&cs); }
    void Leave() { LeaveCriticalSection(&cs); }
    bool TryEnter() { return TryEnterCriticalSection(&cs); }
#else
protected:
    wxMutex mutex;
public:
    explicit CCriticalSection() : mutex(wxMUTEX_RECURSIVE) { }
    ~CCriticalSection() { }
    void Enter() { mutex.Lock(); }
    void Leave() { mutex.Unlock(); }
    bool TryEnter() { return mutex.TryLock() == wxMUTEX_NO_ERROR; }
#endif
public:
    const char* pszFile;
    int nLine;
};

// Automatically leave critical section when leaving block, needed for exception safety
class CCriticalBlock
{
protected:
    CCriticalSection* pcs;
public:
    CCriticalBlock(CCriticalSection& csIn) { pcs = &csIn; pcs->Enter(); }
    ~CCriticalBlock() { pcs->Leave(); }
};

// WARNING: This will catch continue and break!
// break is caught with an assertion, but there's no way to detect continue.
// I'd rather be careful than suffer the other more error prone syntax.
// The compiler will optimise away all this loop junk.
#define CRITICAL_BLOCK(cs)     \
    for (bool fcriticalblockonce=true; fcriticalblockonce; assert(("break caught by CRITICAL_BLOCK!", !fcriticalblockonce)), fcriticalblockonce=false)  \
    for (CCriticalBlock criticalblock(cs); fcriticalblockonce && (cs.pszFile=__FILE__, cs.nLine=__LINE__, true); fcriticalblockonce=false, cs.pszFile=NULL, cs.nLine=0)

class CTryCriticalBlock
{
protected:
    CCriticalSection* pcs;
public:
    CTryCriticalBlock(CCriticalSection& csIn) { pcs = (csIn.TryEnter() ? &csIn : NULL); }
    ~CTryCriticalBlock() { if (pcs) pcs->Leave(); }
    bool Entered() { return pcs != NULL; }
};

#define TRY_CRITICAL_BLOCK(cs)     \
    for (bool fcriticalblockonce=true; fcriticalblockonce; assert(("break caught by TRY_CRITICAL_BLOCK!", !fcriticalblockonce)), fcriticalblockonce=false)  \
    for (CTryCriticalBlock criticalblock(cs); fcriticalblockonce && (fcriticalblockonce = criticalblock.Entered()) && (cs.pszFile=__FILE__, cs.nLine=__LINE__, true); fcriticalblockonce=false, cs.pszFile=NULL, cs.nLine=0)










inline int OutputDebugStringF(const char* pszFormat, ...)
{
    int ret = 0;
#ifdef __WXDEBUG__
    if (!fPrintToConsole)
    {
        // print to debug.log
        char pszFile[MAX_PATH+100];
        GetDataDir(pszFile);
        strlcat(pszFile, "/debug.log", sizeof(pszFile));
        FILE* fileout = fopen(pszFile, "a");
        if (fileout)
        {
            //// Debug print useful for profiling
            //fprintf(fileout, " %"PRI64d" ", wxGetLocalTimeMillis().GetValue());
            va_list arg_ptr;
            va_start(arg_ptr, pszFormat);
            ret = vfprintf(fileout, pszFormat, arg_ptr);
            va_end(arg_ptr);
            fclose(fileout);
        }
    }

#ifdef __WXMSW__
    if (fPrintToDebugger)
    {
        // accumulate a line at a time
        static CCriticalSection cs_OutputDebugStringF;
        CRITICAL_BLOCK(cs_OutputDebugStringF)
        {
            static char pszBuffer[50000];
            static char* pend;
            if (pend == NULL)
                pend = pszBuffer;
            va_list arg_ptr;
            va_start(arg_ptr, pszFormat);
            int limit = END(pszBuffer) - pend - 2;
            int ret = _vsnprintf(pend, limit, pszFormat, arg_ptr);
            va_end(arg_ptr);
            if (ret < 0 || ret >= limit)
            {
                pend = END(pszBuffer) - 2;
                *pend++ = '\n';
            }
            else
                pend += ret;
            *pend = '\0';
            char* p1 = pszBuffer;
            char* p2;
            while (p2 = strchr(p1, '\n'))
            {
                p2++;
                char c = *p2;
                *p2 = '\0';
                OutputDebugString(p1);
                *p2 = c;
                p1 = p2;
            }
            if (p1 != pszBuffer)
                memmove(pszBuffer, p1, pend - p1 + 1);
            pend -= (p1 - pszBuffer);
        }
    }
#endif
#endif

    if (fPrintToConsole)
    {
        // print to console
        va_list arg_ptr;
        va_start(arg_ptr, pszFormat);
        ret = vprintf(pszFormat, arg_ptr);
        va_end(arg_ptr);
    }
    return ret;
}










inline string i64tostr(int64 n)
{
    return strprintf("%"PRI64d, n);
}

inline string itostr(int n)
{
    return strprintf("%d", n);
}

inline int64 atoi64(const char* psz)
{
#ifdef _MSC_VER
    return _atoi64(psz);
#else
    return strtoll(psz, NULL, 10);
#endif
}

inline int64 atoi64(const string& str)
{
#ifdef _MSC_VER
    return _atoi64(str.c_str());
#else
    return strtoll(str.c_str(), NULL, 10);
#endif
}

inline int atoi(const string& str)
{
    return atoi(str.c_str());
}

inline int roundint(double d)
{
    return (int)(d > 0 ? d + 0.5 : d - 0.5);
}

template<typename T>
string HexStr(const T itbegin, const T itend, bool fSpaces=true)
{
    const unsigned char* pbegin = (const unsigned char*)&itbegin[0];
    const unsigned char* pend = pbegin + (itend - itbegin) * sizeof(itbegin[0]);
    string str;
    for (const unsigned char* p = pbegin; p != pend; p++)
        str += strprintf((fSpaces && p != pend-1 ? "%02x " : "%02x"), *p);
    return str;
}

inline string HexStr(vector<unsigned char> vch, bool fSpaces=true)
{
    return HexStr(vch.begin(), vch.end(), fSpaces);
}

template<typename T>
string HexNumStr(const T itbegin, const T itend, bool f0x=true)
{
    const unsigned char* pbegin = (const unsigned char*)&itbegin[0];
    const unsigned char* pend = pbegin + (itend - itbegin) * sizeof(itbegin[0]);
    string str = (f0x ? "0x" : "");
    for (const unsigned char* p = pend-1; p >= pbegin; p--)
        str += strprintf("%02X", *p);
    return str;
}

template<typename T>
void PrintHex(const T pbegin, const T pend, const char* pszFormat="%s", bool fSpaces=true)
{
    printf(pszFormat, HexStr(pbegin, pend, fSpaces).c_str());
}

inline void PrintHex(vector<unsigned char> vch, const char* pszFormat="%s", bool fSpaces=true)
{
    printf(pszFormat, HexStr(vch, fSpaces).c_str());
}

inline int64 PerformanceCounter()
{
    int64 nCounter = 0;
#ifdef __WXMSW__
    QueryPerformanceCounter((LARGE_INTEGER*)&nCounter);
#else
    timeval t;
    gettimeofday(&t, NULL);
    nCounter = t.tv_sec * 1000000 + t.tv_usec;
#endif
    return nCounter;
}

inline int64 GetTimeMillis()
{
    return wxGetLocalTimeMillis().GetValue();
}

inline string DateTimeStrFormat(const char* pszFormat, int64 nTime)
{
    time_t n = nTime;
    struct tm* ptmTime = gmtime(&n);
    char pszTime[200];
    strftime(pszTime, sizeof(pszTime), pszFormat, ptmTime);
    return pszTime;
}








inline void heapchk()
{
#ifdef __WXMSW__
    if (_heapchk() != _HEAPOK)
        DebugBreak();
#endif
}

// Randomize the stack to help protect against buffer overrun exploits
#define IMPLEMENT_RANDOMIZE_STACK(ThreadFn)                         \
    {                                                               \
        static char nLoops;                                         \
        if (nLoops <= 0)                                            \
            nLoops = GetRand(20) + 1;                               \
        if (nLoops-- > 1)                                           \
        {                                                           \
            ThreadFn;                                               \
            return;                                                 \
        }                                                           \
    }

#define CATCH_PRINT_EXCEPTION(pszFn)     \
    catch (std::exception& e) {          \
        PrintException(&e, (pszFn));     \
    } catch (...) {                      \
        PrintException(NULL, (pszFn));   \
    }










template<typename T1>
inline uint256 Hash(const T1 pbegin, const T1 pend)
{
    uint256 hash1;
    SHA256((unsigned char*)&pbegin[0], (pend - pbegin) * sizeof(pbegin[0]), (unsigned char*)&hash1);
    uint256 hash2;
    SHA256((unsigned char*)&hash1, sizeof(hash1), (unsigned char*)&hash2);
    return hash2;
}

template<typename T1, typename T2>
inline uint256 Hash(const T1 p1begin, const T1 p1end,
                    const T2 p2begin, const T2 p2end)
{
    uint256 hash1;
    SHA256_CTX ctx;
    SHA256_Init(&ctx);
    SHA256_Update(&ctx, (unsigned char*)&p1begin[0], (p1end - p1begin) * sizeof(p1begin[0]));
    SHA256_Update(&ctx, (unsigned char*)&p2begin[0], (p2end - p2begin) * sizeof(p2begin[0]));
    SHA256_Final((unsigned char*)&hash1, &ctx);
    uint256 hash2;
    SHA256((unsigned char*)&hash1, sizeof(hash1), (unsigned char*)&hash2);
    return hash2;
}

template<typename T1, typename T2, typename T3>
inline uint256 Hash(const T1 p1begin, const T1 p1end,
                    const T2 p2begin, const T2 p2end,
                    const T3 p3begin, const T3 p3end)
{
    uint256 hash1;
    SHA256_CTX ctx;
    SHA256_Init(&ctx);
    SHA256_Update(&ctx, (unsigned char*)&p1begin[0], (p1end - p1begin) * sizeof(p1begin[0]));
    SHA256_Update(&ctx, (unsigned char*)&p2begin[0], (p2end - p2begin) * sizeof(p2begin[0]));
    SHA256_Update(&ctx, (unsigned char*)&p3begin[0], (p3end - p3begin) * sizeof(p3begin[0]));
    SHA256_Final((unsigned char*)&hash1, &ctx);
    uint256 hash2;
    SHA256((unsigned char*)&hash1, sizeof(hash1), (unsigned char*)&hash2);
    return hash2;
}

template<typename T>
uint256 SerializeHash(const T& obj, int nType=SER_GETHASH, int nVersion=VERSION)
{
    // Most of the time is spent allocating and deallocating CDataStream's
    // buffer.  If this ever needs to be optimized further, make a CStaticStream
    // class with its buffer on the stack.
    CDataStream ss(nType, nVersion);
    ss.reserve(10000);
    ss << obj;
    return Hash(ss.begin(), ss.end());
}

inline uint160 Hash160(const vector<unsigned char>& vch)
{
    uint256 hash1;
    SHA256(&vch[0], vch.size(), (unsigned char*)&hash1);
    uint160 hash2;
    RIPEMD160((unsigned char*)&hash1, sizeof(hash1), (unsigned char*)&hash2);
    return hash2;
}











// Note: It turns out we might have been able to use boost::thread
// by using TerminateThread(boost::thread.native_handle(), 0);
#ifdef __WXMSW__
typedef HANDLE pthread_t;

inline pthread_t CreateThread(void(*pfn)(void*), void* parg, bool fWantHandle=false)
{
    DWORD nUnused = 0;
    HANDLE hthread =
        CreateThread(
            NULL,                        // default security
            0,                           // inherit stack size from parent
            (LPTHREAD_START_ROUTINE)pfn, // function pointer
            parg,                        // argument
            0,                           // creation option, start immediately
            &nUnused);                   // thread identifier
    if (hthread == NULL)
    {
        printf("Error: CreateThread() returned %d\n", GetLastError());
        return (pthread_t)0;
    }
    if (!fWantHandle)
    {
        CloseHandle(hthread);
        return (pthread_t)-1;
    }
    return hthread;
}

inline void SetThreadPriority(int nPriority)
{
    SetThreadPriority(GetCurrentThread(), nPriority);
}
#else
inline pthread_t CreateThread(void(*pfn)(void*), void* parg, bool fWantHandle=false)
{
    pthread_t hthread = 0;
    int ret = pthread_create(&hthread, NULL, (void*(*)(void*))pfn, parg);
    if (ret != 0)
    {
        printf("Error: pthread_create() returned %d\n", ret);
        return (pthread_t)0;
    }
    if (!fWantHandle)
        return (pthread_t)-1;
    return hthread;
}

#define THREAD_PRIORITY_LOWEST          PRIO_MIN
#define THREAD_PRIORITY_BELOW_NORMAL    2
#define THREAD_PRIORITY_NORMAL          0
#define THREAD_PRIORITY_ABOVE_NORMAL    0

inline void SetThreadPriority(int nPriority)
{
    // threads are processes on linux, so PRIO_PROCESS affects just the one thread
    setpriority(PRIO_PROCESS, getpid(), nPriority);
}

inline bool TerminateThread(pthread_t hthread, unsigned int nExitCode)
{
    return (pthread_cancel(hthread) == 0);
}

inline void ExitThread(unsigned int nExitCode)
{
    pthread_exit((void*)nExitCode);
}
#endif